/******************************************************************************
The MIT License(MIT)

Embedded Template Library.
https://github.com/ETLCPP/etl
https://www.etlcpp.com

Copyright(c) 2017 John Wellbelove

Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files(the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and / or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions :

The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
******************************************************************************/

#if 0
#error THIS HEADER IS A GENERATOR. DO NOT INCLUDE.
#endif

//***************************************************************************
// THIS FILE HAS BEEN AUTO GENERATED. DO NOT EDIT THIS FILE.
//***************************************************************************

//***************************************************************************
// To generate to header file, run this at the command line.
// Note: You will need Python and COG installed.
//
// cog -d -e -ofsm.h -DHandlers=<n> fsm_generator.h
// Where <n> is the number of messages to support.
//
// e.g.
// To generate handlers for up to 16 events...
// cog -d -e -ofsm.h -DHandlers=16 fsm_generator.h
//
// See generate.bat
//***************************************************************************

#ifndef ETL_FSM_INCLUDED
#define ETL_FSM_INCLUDED

#include "platform.h"
#include "array.h"
#include "nullptr.h"
#include "error_handler.h"
#include "exception.h"
#include "user_type.h"
#include "message_router.h"
#include "integral_limits.h"
#include "largest.h"
#if ETL_USING_CPP11
  #include "tuple.h"
#endif

#include <stdint.h>

#include "private/minmax_push.h"

namespace etl
{
  class fsm;
  class hfsm;

  /// Allow alternative type for state id.
#if !defined(ETL_FSM_STATE_ID_TYPE)
  typedef uint_least8_t fsm_state_id_t;
#else
  typedef ETL_FSM_STATE_ID_TYPE fsm_state_id_t;
#endif

  // For internal FSM use.
  typedef typename etl::larger_type<etl::message_id_t>::type fsm_internal_id_t;

#if ETL_USING_CPP17 && !defined(ETL_FSM_FORCE_CPP03_IMPLEMENTATION) // For C++17 and above
  template <typename, typename, etl::fsm_state_id_t, typename...>
  class fsm_state;
#else
  template <typename, typename, etl::fsm_state_id_t,
            typename, typename, typename, typename, 
            typename, typename, typename, typename, 
            typename, typename, typename, typename, 
            typename, typename, typename, typename>
  class fsm_state;
#endif

  //***************************************************************************
  /// Base exception class for FSM.
  //***************************************************************************
  class fsm_exception : public etl::exception
  {
  public:

    fsm_exception(string_type reason_, string_type file_name_, numeric_type line_number_)
      : etl::exception(reason_, file_name_, line_number_)
    {
    }
  };

  //***************************************************************************
  /// Exception for null state pointer.
  //***************************************************************************
  class fsm_null_state_exception : public etl::fsm_exception
  {
  public:

    fsm_null_state_exception(string_type file_name_, numeric_type line_number_)
      : etl::fsm_exception(ETL_ERROR_TEXT("fsm:null state", ETL_FSM_FILE_ID"A"), file_name_, line_number_)
    {
    }
  };

  //***************************************************************************
  /// Exception for invalid state id.
  //***************************************************************************
  class fsm_state_id_exception : public etl::fsm_exception
  {
  public:

    fsm_state_id_exception(string_type file_name_, numeric_type line_number_)
      : etl::fsm_exception(ETL_ERROR_TEXT("fsm:state id", ETL_FSM_FILE_ID"B"), file_name_, line_number_)
    {
    }
  };

  //***************************************************************************
  /// Exception for incompatible state list.
  //***************************************************************************
  class fsm_state_list_exception : public etl::fsm_exception
  {
  public:

    fsm_state_list_exception(string_type file_name_, numeric_type line_number_)
      : etl::fsm_exception(ETL_ERROR_TEXT("fsm:state list", ETL_FSM_FILE_ID"C"), file_name_, line_number_)
    {
    }
  };

  //***************************************************************************
  /// Exception for incompatible order state list.
  //***************************************************************************
  class fsm_state_list_order_exception : public etl::fsm_exception
  {
  public:

    fsm_state_list_order_exception(string_type file_name_, numeric_type line_number_)
      : etl::fsm_exception(ETL_ERROR_TEXT("fsm:state list order", ETL_FSM_FILE_ID"D"), file_name_, line_number_)
    {
    }
  };

  //***************************************************************************
  /// Exception for message received but not started.
  //***************************************************************************
  class fsm_not_started : public etl::fsm_exception
  {
  public:
    fsm_not_started(string_type file_name_, numeric_type line_number_)
      : etl::fsm_exception(ETL_ERROR_TEXT("fsm:not started", ETL_FSM_FILE_ID"F"), file_name_, line_number_)
    {
    }
  };

  //***************************************************************************
  /// Exception for call to receive/start/etc. while receive/start/etc. is already happening.
  /// A call like that could result in an infinite loop or landing in an incorrect state.
  //***************************************************************************
  class fsm_reentrant_transition_forbidden : public etl::fsm_exception
  {
  public:
    fsm_reentrant_transition_forbidden(string_type file_name_, numeric_type line_number_)
      : etl::fsm_exception(ETL_ERROR_TEXT("fsm:reentrant calls to start/receive/etc. forbidden", ETL_FSM_FILE_ID"G"), file_name_, line_number_)
    {
    }
  };

  namespace private_fsm
  {
    template <typename T = void>
    class ifsm_state_helper
    {
    public:

      // Pass this whenever no state change is desired.
      // The highest unsigned value of fsm_state_id_t.
      static ETL_CONSTANT fsm_state_id_t No_State_Change = etl::integral_limits<fsm_state_id_t>::max;
      
      // Pass this when this event also needs to be passed to the parent.
      static ETL_CONSTANT fsm_state_id_t Pass_To_Parent = No_State_Change - 1U;

      // Pass this when this event should trigger a self transition.
      static ETL_CONSTANT fsm_state_id_t Self_Transition = No_State_Change - 2U;
    };

    template <typename T>
    ETL_CONSTANT fsm_state_id_t ifsm_state_helper<T>::No_State_Change;

    template <typename T>
    ETL_CONSTANT fsm_state_id_t ifsm_state_helper<T>::Pass_To_Parent;

    template <typename T>
    ETL_CONSTANT fsm_state_id_t ifsm_state_helper<T>::Self_Transition;

    // Compile-time: TState::ID must equal its index in the type list (0..N-1)
    template <size_t Id, typename...> struct check_ids : etl::true_type 
    {
    };

    template <size_t Id, typename TState0, typename... TRest>
    struct check_ids<Id, TState0, TRest...>
      : etl::integral_constant<bool, (TState0::STATE_ID == Id) && private_fsm::check_ids<Id + 1, TRest...>::value> 
    {
    };   

    //***************************************************************************
    /// RAII detection mechanism to catch reentrant calls to methods that might
    /// transition the state machine to a different state.
    /// This is not a mutex.
    //***************************************************************************
    class fsm_reentrancy_guard
    {
    public:
      //*******************************************
      /// Constructor.
      /// Checks if another method has locked reentrancy.
      //*******************************************
      fsm_reentrancy_guard(bool& transition_guard_flag)
        : is_locked(transition_guard_flag)
      {
        ETL_ASSERT(!is_locked, ETL_ERROR(etl::fsm_reentrant_transition_forbidden));
        is_locked = true;
      }

      //*******************************************
      /// Destructor.
      /// Releases lock on reentrancy.
      //*******************************************
      ~fsm_reentrancy_guard() ETL_NOEXCEPT
      {
        is_locked = false;
      }
      
    private:
      // Reference to the flag signifying a lock on the state machine.
      bool& is_locked;
      
      // Copy & move semantics disabled since this is a guard.
      fsm_reentrancy_guard(fsm_reentrancy_guard const&) ETL_DELETE;
      fsm_reentrancy_guard& operator= (fsm_reentrancy_guard const&) ETL_DELETE;
#if ETL_USING_CPP11
      fsm_reentrancy_guard(fsm_reentrancy_guard&&) ETL_DELETE;
      fsm_reentrancy_guard& operator= (fsm_reentrancy_guard&&) ETL_DELETE;
#endif
    };
  }

  class ifsm_state;

#if ETL_USING_CPP11
  //***************************************************************************
  /// A class to store FSM states.
  //***************************************************************************
  template <typename... TStates>
  class fsm_state_pack 
  {
  public:

    friend class etl::fsm;

    ETL_STATIC_ASSERT((private_fsm::check_ids<0, TStates...>::value), "State IDs must be 0..N-1 and in order");
    ETL_STATIC_ASSERT(sizeof...(TStates) > 0, "At least one state is required");
    ETL_STATIC_ASSERT(sizeof...(TStates) < private_fsm::ifsm_state_helper<>::No_State_Change, "State IDs mst be less than ifsm_state::No_State_Change");

    //*********************************
    // The number of states.
    //*********************************
    static ETL_CONSTEXPR size_t size()
    {
      return sizeof...(TStates);
    }

    //*********************************
    /// Gets a reference to the state.
    //*********************************
    template <typename TState>
    TState& get() 
    { 
      return etl::get<TState>(storage); 
    }

    //*********************************
    /// Gets a const reference to the state.
    //*********************************
    template <typename TState>
    const TState& get() const 
    { 
      return etl::get<TState>(storage); 
    }

  private:

    //*********************************
    /// Gets a pointer to the state list.
    //*********************************
    etl::ifsm_state** get_state_list()
    {
      return &states[0];
    }

    /// A tuple to store the states.
    etl::tuple<TStates...> storage{};

    /// Pointers to the states.
    etl::ifsm_state* states[sizeof...(TStates)]{ &etl::get<TStates>(storage)... };
  };
#endif

  //***************************************************************************
  /// Interface class for FSM states.
  //***************************************************************************
  class ifsm_state : public private_fsm::ifsm_state_helper<>
  {
  public:

    /// Allows ifsm_state functions to be private.
    friend class etl::fsm;
    friend class etl::hfsm;

    using private_fsm::ifsm_state_helper<>::No_State_Change;
    using private_fsm::ifsm_state_helper<>::Pass_To_Parent;
    using private_fsm::ifsm_state_helper<>::Self_Transition;

#if ETL_USING_CPP17 && !defined(ETL_FSM_FORCE_CPP03_IMPLEMENTATION) // For C++17 and above
    template <typename, typename, etl::fsm_state_id_t, typename...>
    friend class fsm_state;
#else
    template <typename, typename, etl::fsm_state_id_t,
              typename, typename, typename, typename, 
              typename, typename, typename, typename, 
              typename, typename, typename, typename, 
              typename, typename, typename, typename>
    friend class etl::fsm_state;
#endif

    //*******************************************
    /// Gets the id for this state.
    //*******************************************
    etl::fsm_state_id_t get_state_id() const
    {
      return state_id;
    }

    //*******************************************
    /// Adds a child to this state.
    /// Only of use when part of an HFSM.
    //*******************************************
    void add_child_state(etl::ifsm_state& state)
    {
      ETL_ASSERT(state.p_parent == ETL_NULLPTR, ETL_ERROR(etl::fsm_null_state_exception));
      state.p_parent = this;

      if (p_default_child == ETL_NULLPTR)
      {
        p_default_child = &state;
      }
    }

    //*******************************************
    /// Adds a list of child states.
    /// Only of use when part of an HFSM.
    //*******************************************
    template <typename TSize>
    void set_child_states(etl::ifsm_state** state_list, TSize size)
    {
      p_active_child = ETL_NULLPTR;
      p_default_child = ETL_NULLPTR;

      for (TSize i = 0; i < size; ++i)
      {
        ETL_ASSERT(state_list[i] != ETL_NULLPTR, ETL_ERROR(etl::fsm_null_state_exception));
        add_child_state(*state_list[i]);
      }
    }

  protected:

    //*******************************************
    /// Constructor.
    //*******************************************
    ifsm_state(etl::fsm_state_id_t state_id_)
      : state_id(state_id_),
      p_context(ETL_NULLPTR),
      p_parent(ETL_NULLPTR),
      p_active_child(ETL_NULLPTR),
      p_default_child(ETL_NULLPTR)
    {
    }

    //*******************************************
    /// Destructor.
    //*******************************************
    virtual ~ifsm_state()
    {
    }

    //*******************************************
    etl::fsm& get_fsm_context() const
    {
      return *p_context;
    }

  private:

    virtual fsm_state_id_t process_event(const etl::imessage& message) = 0;

    virtual fsm_state_id_t on_enter_state() { return No_State_Change; } // By default, do nothing.
    virtual void on_exit_state() {}  // By default, do nothing.

    //*******************************************
    void set_fsm_context(etl::fsm& context)
    {
      p_context = &context;
    }

    // The state id.
    const etl::fsm_state_id_t state_id;

    // A pointer to the FSM context.
    etl::fsm* p_context;

    // A pointer to the parent.
    ifsm_state* p_parent;

    // A pointer to the active child.
    ifsm_state* p_active_child;

    // A pointer to the default active child.
    ifsm_state* p_default_child;

    // Disabled.
    ifsm_state(const ifsm_state&) ETL_DELETE;
    ifsm_state& operator =(const ifsm_state&) ETL_DELETE;
  };

  //***************************************************************************
  /// The FSM class.
  //***************************************************************************
  class fsm : public etl::imessage_router
  {
  public:

    friend class etl::hfsm;
    using imessage_router::receive;

    //*******************************************
    /// Constructor.
    //*******************************************
    fsm(etl::message_router_id_t id)
      : imessage_router(id)
      , p_state(ETL_NULLPTR)
      , state_list(ETL_NULLPTR)
      , number_of_states(0U)
      , is_processing_state_change(false)
    {
    }

    //*******************************************
    /// Set the states for the FSM
    /// From a pointer to etl::ifsm_state and size.
    //*******************************************
    template <typename TSize>
    void set_states(etl::ifsm_state** p_states, TSize size)
    {
      state_list = p_states;
      number_of_states = etl::fsm_state_id_t(size);

      ETL_ASSERT(number_of_states > 0, ETL_ERROR(etl::fsm_state_list_exception));
      ETL_ASSERT(number_of_states < ifsm_state::No_State_Change, ETL_ERROR(etl::fsm_state_list_exception));

      for (etl::fsm_state_id_t i = 0; i < size; ++i)
      {
        ETL_ASSERT(state_list[i] != ETL_NULLPTR, ETL_ERROR(etl::fsm_null_state_exception));
        ETL_ASSERT(state_list[i]->get_state_id() == i, ETL_ERROR(etl::fsm_state_list_order_exception));
        state_list[i]->set_fsm_context(*this);
      }
    }

#if ETL_USING_CPP11
    //*******************************************
    /// Set the states for the FSM
    /// From an etl::fsm_state_pack.
    //*******************************************
    template <typename... TStates>
    void set_states(etl::fsm_state_pack<TStates...>& state_pack)
    {
      state_list = state_pack.get_state_list();
      number_of_states = etl::fsm_state_id_t(state_pack.size());

      for (etl::fsm_state_id_t i = 0; i < number_of_states; ++i)
      {
        state_list[i]->set_fsm_context(*this);
      }
    }
#endif

    //*******************************************
    /// Starts the FSM.
    /// Can only be called once.
    /// Subsequent calls will do nothing.
    ///\param call_on_enter_state If true will call on_enter_state() for the first state. Default = true.
    //*******************************************
    virtual void start(bool call_on_enter_state = true)
    {
      private_fsm::fsm_reentrancy_guard transition_lock(is_processing_state_change);

      // Can only be started once.
      if (!is_started())
      {
        p_state = state_list[0];
        ETL_ASSERT(p_state != ETL_NULLPTR, ETL_ERROR(etl::fsm_null_state_exception));

        if (call_on_enter_state)
        {
          etl::fsm_state_id_t next_state_id;
          etl::ifsm_state* p_last_state;

          do
          {
            p_last_state = p_state;
            next_state_id = p_state->on_enter_state();
            if (next_state_id != ifsm_state::No_State_Change)
            {
              ETL_ASSERT(next_state_id < number_of_states, ETL_ERROR(etl::fsm_state_id_exception));
              p_state = state_list[next_state_id];
            }
          } while (p_last_state != p_state);
        }
      }
    }

    //*******************************************
    /// Top level message handler for the FSM.
    //*******************************************
    void receive(const etl::imessage& message) ETL_OVERRIDE
    {
      private_fsm::fsm_reentrancy_guard transition_lock(is_processing_state_change);

      if (is_started())
      {
        etl::fsm_state_id_t next_state_id = p_state->process_event(message);

        process_state_change(next_state_id); 
      }
      else
      {
        ETL_ASSERT_FAIL(ETL_ERROR(etl::fsm_not_started));
      }
    }

    //*******************************************
    /// Invoke a state transition.
    //*******************************************
    etl::fsm_state_id_t transition_to(etl::fsm_state_id_t new_state_id)
    {
      private_fsm::fsm_reentrancy_guard transition_lock(is_processing_state_change);

      if (is_started())
      {
        return process_state_change(new_state_id);
      }
      else
      {
        return ifsm_state::No_State_Change;
      }
    }

    using imessage_router::accepts;

    //*******************************************
    /// Does this FSM accept the message id?
    /// Yes, it accepts everything!
    //*******************************************
    bool accepts(etl::message_id_t) const ETL_OVERRIDE
    {
      return true;
    }

    //*******************************************
    /// Gets the current state id.
    //*******************************************
    etl::fsm_state_id_t get_state_id() const
    {
      ETL_ASSERT(p_state != ETL_NULLPTR, ETL_ERROR(etl::fsm_null_state_exception));
      return p_state->get_state_id();
    }

    //*******************************************
    /// Gets a reference to the current state interface.
    //*******************************************
    ifsm_state& get_state()
    {
      ETL_ASSERT(p_state != ETL_NULLPTR, ETL_ERROR(etl::fsm_null_state_exception));
      return *p_state;
    }

    //*******************************************
    /// Gets a const reference to the current state interface.
    //*******************************************
    const ifsm_state& get_state() const
    {
      ETL_ASSERT(p_state != ETL_NULLPTR, ETL_ERROR(etl::fsm_null_state_exception));
      return *p_state;
    }

    //*******************************************
    /// Checks if the FSM has been started.
    //*******************************************
    bool is_started() const
    {
      return p_state != ETL_NULLPTR;
    }

    //*******************************************
    /// Reset the FSM to pre-started state.
    ///\param call_on_exit_state If true will call on_exit_state() for the current state. Default = false.
    //*******************************************
    virtual void reset(bool call_on_exit_state = false)
    {
      private_fsm::fsm_reentrancy_guard transition_lock(is_processing_state_change);

      if (is_started() && call_on_exit_state)
      {
        p_state->on_exit_state();
      }

      p_state = ETL_NULLPTR;
    }

    //********************************************
    ETL_DEPRECATED bool is_null_router() const ETL_OVERRIDE
    {
      return false;
    }

    //********************************************
    bool is_producer() const ETL_OVERRIDE
    {
      return true;
    }

    //********************************************
    bool is_consumer() const ETL_OVERRIDE
    {
      return true;
    }

  private:

    //********************************************
    bool have_changed_state(etl::fsm_state_id_t next_state_id) const
    {
      return (next_state_id != p_state->get_state_id()) &&
             (next_state_id != ifsm_state::No_State_Change) &&
             (next_state_id != ifsm_state::Self_Transition);
    }

    //********************************************
    bool is_self_transition(etl::fsm_state_id_t next_state_id) const
    {
      return (next_state_id == ifsm_state::Self_Transition);
    }

    //*******************************************
    /// Core function to process a state change.
    //*******************************************
    virtual etl::fsm_state_id_t process_state_change(etl::fsm_state_id_t next_state_id)
    {
      if (is_self_transition(next_state_id))
      {
        p_state->on_exit_state();
        next_state_id = p_state->on_enter_state();
      }
      
      if (have_changed_state(next_state_id))
      {
        ETL_ASSERT_OR_RETURN_VALUE(next_state_id < number_of_states, ETL_ERROR(etl::fsm_state_id_exception), p_state->get_state_id());
        etl::ifsm_state* p_next_state = state_list[next_state_id];

        do
        {
          p_state->on_exit_state();
          p_state = p_next_state;

          next_state_id = p_state->on_enter_state();

          if (have_changed_state(next_state_id))
          {
            ETL_ASSERT_OR_RETURN_VALUE(next_state_id < number_of_states, ETL_ERROR(etl::fsm_state_id_exception), p_state->get_state_id());
            p_next_state = state_list[next_state_id];
          }
        } while (p_next_state != p_state); // Have we changed state again?
      }

      return p_state->get_state_id();
    }

    etl::ifsm_state*    p_state;          ///< A pointer to the current state.
    etl::ifsm_state**   state_list;       ///< The list of added states.
    etl::fsm_state_id_t number_of_states; ///< The number of states.
    bool is_processing_state_change;      ///< Whether a method call that could potentially trigger a state change is active
  };

  //*************************************************************************************************
  // For C++17 and above.
  //*************************************************************************************************
#if ETL_USING_CPP17 && !defined(ETL_FSM_FORCE_CPP03_IMPLEMENTATION) // For C++17 and above
  //***************************************************************************
  // The definition for all types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, typename... TMessageTypes>
  class fsm_state : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    //********************************************
    struct result_t
    {
      bool was_handled;
      etl::fsm_state_id_t state_id;
    };

    //********************************************
    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;

      const bool was_handled = (process_event_type<TMessageTypes>(message, new_state_id) || ...);

      if (!was_handled || (new_state_id == Pass_To_Parent))
      {
        new_state_id = (p_parent != nullptr) ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message);
      }

      return new_state_id;
    }

    //********************************************
    template <typename TMessage>
    bool process_event_type(const etl::imessage& msg, etl::fsm_state_id_t& new_state_id)
    {
      if (TMessage::ID == msg.get_message_id())
      {
        new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const TMessage&>(msg));
        return true;
      }
      else
      {
        return false;
      }
    }
  };

  /// Definition of STATE_ID
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, typename... TMessageTypes>
  ETL_CONSTANT etl::fsm_state_id_t fsm_state<TContext, TDerived, STATE_ID_, TMessageTypes...>::STATE_ID;

#else
//*************************************************************************************************
// For C++14 and below.
//*************************************************************************************************
  //***************************************************************************
  // The definition for all 16 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1 = void, typename T2 = void, typename T3 = void, typename T4 = void, 
            typename T5 = void, typename T6 = void, typename T7 = void, typename T8 = void, 
            typename T9 = void, typename T10 = void, typename T11 = void, typename T12 = void, 
            typename T13 = void, typename T14 = void, typename T15 = void, typename T16 = void>
  class fsm_state : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        case T6::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T6&>(message)); break;
        case T7::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T7&>(message)); break;
        case T8::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T8&>(message)); break;
        case T9::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T9&>(message)); break;
        case T10::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T10&>(message)); break;
        case T11::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T11&>(message)); break;
        case T12::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T12&>(message)); break;
        case T13::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T13&>(message)); break;
        case T14::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T14&>(message)); break;
        case T15::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T15&>(message)); break;
        case T16::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T16&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 15 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5, typename T6, typename T7, typename T8, 
            typename T9, typename T10, typename T11, typename T12, 
            typename T13, typename T14, typename T15>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, T6, T7, T8, T9, T10, T11, T12, T13, T14, T15, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        case T6::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T6&>(message)); break;
        case T7::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T7&>(message)); break;
        case T8::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T8&>(message)); break;
        case T9::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T9&>(message)); break;
        case T10::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T10&>(message)); break;
        case T11::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T11&>(message)); break;
        case T12::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T12&>(message)); break;
        case T13::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T13&>(message)); break;
        case T14::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T14&>(message)); break;
        case T15::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T15&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 14 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5, typename T6, typename T7, typename T8, 
            typename T9, typename T10, typename T11, typename T12, 
            typename T13, typename T14>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, T6, T7, T8, T9, T10, T11, T12, T13, T14, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        case T6::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T6&>(message)); break;
        case T7::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T7&>(message)); break;
        case T8::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T8&>(message)); break;
        case T9::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T9&>(message)); break;
        case T10::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T10&>(message)); break;
        case T11::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T11&>(message)); break;
        case T12::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T12&>(message)); break;
        case T13::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T13&>(message)); break;
        case T14::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T14&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 13 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5, typename T6, typename T7, typename T8, 
            typename T9, typename T10, typename T11, typename T12, 
            typename T13>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, T6, T7, T8, T9, T10, T11, T12, T13, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        case T6::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T6&>(message)); break;
        case T7::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T7&>(message)); break;
        case T8::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T8&>(message)); break;
        case T9::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T9&>(message)); break;
        case T10::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T10&>(message)); break;
        case T11::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T11&>(message)); break;
        case T12::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T12&>(message)); break;
        case T13::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T13&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 12 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5, typename T6, typename T7, typename T8, 
            typename T9, typename T10, typename T11, typename T12>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, T6, T7, T8, T9, T10, T11, T12, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        case T6::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T6&>(message)); break;
        case T7::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T7&>(message)); break;
        case T8::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T8&>(message)); break;
        case T9::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T9&>(message)); break;
        case T10::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T10&>(message)); break;
        case T11::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T11&>(message)); break;
        case T12::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T12&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 11 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5, typename T6, typename T7, typename T8, 
            typename T9, typename T10, typename T11>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, T6, T7, T8, T9, T10, T11, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        case T6::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T6&>(message)); break;
        case T7::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T7&>(message)); break;
        case T8::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T8&>(message)); break;
        case T9::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T9&>(message)); break;
        case T10::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T10&>(message)); break;
        case T11::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T11&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 10 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5, typename T6, typename T7, typename T8, 
            typename T9, typename T10>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, T6, T7, T8, T9, T10, void, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        case T6::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T6&>(message)); break;
        case T7::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T7&>(message)); break;
        case T8::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T8&>(message)); break;
        case T9::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T9&>(message)); break;
        case T10::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T10&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 9 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5, typename T6, typename T7, typename T8, 
            typename T9>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, T6, T7, T8, T9, void, void, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        case T6::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T6&>(message)); break;
        case T7::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T7&>(message)); break;
        case T8::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T8&>(message)); break;
        case T9::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T9&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 8 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5, typename T6, typename T7, typename T8>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, T6, T7, T8, void, void, void, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        case T6::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T6&>(message)); break;
        case T7::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T7&>(message)); break;
        case T8::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T8&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 7 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5, typename T6, typename T7>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, T6, T7, void, void, void, void, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        case T6::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T6&>(message)); break;
        case T7::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T7&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 6 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5, typename T6>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, T6, void, void, void, void, void, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        case T6::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T6&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 5 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, void, void, void, void, void, void, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        case T5::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T5&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 4 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, void, void, void, void, void, void, void, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        case T4::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T4&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 3 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, void, void, void, void, void, void, void, void, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        case T3::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T3&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 2 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, T2, void, void, void, void, void, void, void, void, void, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        case T2::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T2&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 1 message type.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1>
  class fsm_state<TContext, TDerived, STATE_ID_, T1, void, void, void, void, void, void, void, void, void, void, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }

  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      etl::fsm_state_id_t new_state_id;
      etl::message_id_t event_id = message.get_message_id();

      switch (event_id)
      {
        case T1::ID: new_state_id = static_cast<TDerived*>(this)->on_event(static_cast<const T1&>(message)); break;
        default: new_state_id = p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message); break;
      }

      return (new_state_id != Pass_To_Parent) ? new_state_id : (p_parent ? p_parent->process_event(message) : No_State_Change);
    }
  };

  //***************************************************************************
  // Specialisation for 0 message types.
  //***************************************************************************
  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_>
  class fsm_state<TContext, TDerived, STATE_ID_, void, void, void, void, void, void, void, void, void, void, void, void, void, void, void, void> : public ifsm_state
  {
  public:

    static ETL_CONSTANT etl::fsm_state_id_t STATE_ID = STATE_ID_;

    fsm_state()
      : ifsm_state(STATE_ID)
    {
    }

  protected:

    ~fsm_state()
    {
    }

    TContext& get_fsm_context() const
    {
      return static_cast<TContext&>(ifsm_state::get_fsm_context());
    }
  private:

    etl::fsm_state_id_t process_event(const etl::imessage& message)
    {
      return p_parent ? p_parent->process_event(message) : static_cast<TDerived*>(this)->on_event_unknown(message);
    }
  };

  template <typename TContext, typename TDerived, etl::fsm_state_id_t STATE_ID_, 
            typename T1, typename T2, typename T3, typename T4, 
            typename T5, typename T6, typename T7, typename T8, 
            typename T9, typename T10, typename T11, typename T12, 
            typename T13, typename T14, typename T15, typename T16>
  ETL_CONSTANT etl::fsm_state_id_t fsm_state<TContext, TDerived, STATE_ID_, T1, T2, T3, T4, T5, T6, T7, T8, T9, T10, T11, T12, T13, T14, T15, T16>::STATE_ID;
#endif
}

#include "private/minmax_pop.h"

#endif
